COGNITIVE
LEVEL / REMEMBER (B1) / UNDERSTAND (B2) / APPLY (B3) / ANALYZE (B4) / EVALUATE (B5) / CREATE (B6)
QUESTION
CUES/
VERBS / Tell, List, Describe, Relate, Locate, Write, Find, State, Name, Identify, Label, Recall, Define, Recognize, Match, Reproduce, Memorize, Draw, Select, Recite / Explain, Interpret, Outline, Discuss, Distinguish, Predict, Restate, Translate, Compare, Describe, Relate, Generalize, Summarize / Show, Solve, Use, Illustrate, Construct, Complete, Examine, Classify, Choose, Interpret, Make, Put together, Apply, Calculate, Modify / Analyze, Distinguish, Examine, Compare, Contrast, Investigate, Identify, Explain, Separate, Categorize, Model / Judge, Select, Choose, Decide, Justify, Debate, Verify, Argue, Recommend, Assess, Discuss, Determine, Estimate, Weigh, Value, Defend / Create, Invent, Compose, Predict, Plan, Construct, Design, Imagine, Propose, Formulate, Combine, Elaborate, Write
Standard/Essential Knowledge and Skills:
CH.2 In order to meet this standard, it is expected that students will:
  • determine the atomic number, atomic mass, the number of protons, and the number of electrons of any atom of a particular element using a periodic table. (B5)
  • determine the number of neutrons in an isotope given its mass number. (B5)
  • perform calculations to determine the “weighted” average atomic mass. (B4)
  • perform calculations involving the half-life of a radioactive substance. (B4)
  • differentiate between alpha, beta, and gamma radiation with respect to penetrating power, shielding, and composition. (B2)
  • differentiate between the major atom components (proton, neutron and electron) in terms of location, size, and charge. (B2)
  • distinguishbetween a group and a period. (B2)
  • identify key groups, periods, and regions of elements on the periodic table. (B1)
  • identifyand explain trends in the periodic table as they relate to ionization energy, electronegativity, shielding effect, and relative (B1, B2)
  • compare an element’s reactivity to the reactivity of other elements in the table relate the position of an element on the periodic table to its electron configuration. (B2)
  • determine the number of valence electrons and possible oxidation numbers from an element’s electron configuration. (B5)
  • write the electron configuration for the first 20 elements of the periodic table. (B3)
  • distinguish between physical and chemical properties of metals and nonmetals. (B2)
  • differentiate between pure substances and mixtures and between homogeneous and heterogeneous mixtures. (B2)
  • identify key contributions of principal scientists including: (B1)
- atomos, initial idea of atom – Democritus
- first atomic theory of matter, solid sphere model – John Dalton
- discovery of the electron using the cathode ray tube experiment, plum pudding model – J. J. Thomson
- discovery of the nucleus using the gold foil experiment, nuclear model – Ernest Rutherford
- discovery of charge of electron using the oil drop experiment –Robert Millikan
- energy levels, planetary model – Niels Bohr
- periodic table arranged by atomic mass – Dmitri Mendeleev
- periodic table arranged by atomic number – Henry Moseley
- quantum nature of energy – Max Planck
- uncertainty principle, quantum mechanical model – Werner Heisenberg
- wave theory, quantum mechanical model – Louis de Broglie.
  • differentiate between the historical and quantum models of the atom. (B2)

Vocabulary:
Alkali metal, alkaline earth metal, halogen, anion, atom, atomic mass, atomic number, atomic radius, cation, conductivity, Democritus, ductile, electron configuration, electronegativity, element, energy levels, energy orbitals, Ernest Rutherford, Erwin Schrodinger, ground state, group/family, half-life, Henry Moseley, ion, ionization energy, isotope, J.J. Thomson, John Dalton, Louis de Broglie, malleable, Max Planck, Medeleev, metal, metalloid, Niels Bohr, noble gas, nonmetal, period, Aufbau Priniple, diatomic elements, Hund’s Rule, orbital filling diagram, Pauli exclusion, quantum mechanical model, Robert Millikan, shielding effect, subatomic particles, transition metal, uncertainty principle, valence electrons
Assessment Type and Cognitive Level:
Formative:
Summative: / Homework Assignments:
Monday
Tuesday
Wednesday
Thursday
Friday
DATE / MONDAY / TUESDAY / WEDNESDAY / THURSDAY / FRIDAY
Daily Objective
Hook/ Essential Question
Learning Plan, Activities,
Planned Questions
Conditions / Criteria for Success
Differentiation
(Above, On, and/or Below Grade Level) / A)
O)
B)
Closure
Reflection